4.7 Article

Drug-Inducible Gene Therapy Effectively Reduces Spontaneous Seizures in Kindled Rats but Creates Off-Target Side Effects in Inhibitory Neurons

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MDPI
DOI: 10.3390/ijms241411347

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gene therapy; adeno-associated virus (AAV); drug-inducible; temporal lobe epilepsy; electroencephalogram (EEG); spontaneous limbic seizures

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Over a third of patients with temporal lobe epilepsy (TLE) are not effectively treated with current anti-seizure drugs, leading to the development of gene therapies. Injecting adeno-associated viral vectors (AAV) into the brain has been proven as a safe and feasible method. However, the regulation of AAV expression in therapeutic genes has not been achieved. This study demonstrates that drug-inducible gene therapies are effective in reducing spontaneous seizures and highlights the importance of evaluating the location and spread of AAV-based gene therapies in preclinical studies.
Over a third of patients with temporal lobe epilepsy (TLE) are not effectively treated with current anti-seizure drugs, spurring the development of gene therapies. The injection of adeno-associated viral vectors (AAV) into the brain has been shown to be a safe and viable approach. However, to date, AAV expression of therapeutic genes has not been regulated. Moreover, a common property of antiepileptic drugs is a narrow therapeutic window between seizure control and side effects. Therefore, a long-term goal is to develop drug-inducible gene therapies that can be regulated by clinically relevant drugs. In this study, a first-generation doxycycline-regulated gene therapy that delivered an engineered version of the leak potassium channel Kcnk2 (TREK-M) was injected into the hippocampus of male rats. Rats were electrically stimulated until kindled. EEG was monitored 24/7. Electrical kindling revealed an important side effect, as even low expression of TREK M in the absence of doxycycline was sufficient to cause rats to develop spontaneous recurring seizures. Treating the epileptic rats with doxycycline successfully reduced spontaneous seizures. Localization studies of infected neurons suggest seizures were caused by expression in GABAergic inhibitory neurons. In contrast, doxycycline increased the expression of TREK-M in excitatory neurons, thereby reducing seizures through net inhibition of firing. These studies demonstrate that drug-inducible gene therapies are effective in reducing spontaneous seizures and highlight the importance of testing for side effects with pro-epileptic stressors such as electrical kindling. These studies also show the importance of evaluating the location and spread of AAV-based gene therapies in preclinical studies.

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